DOI QR코드

DOI QR Code

The effect of bolt tightening methods and sequence on the performance of gasketed bolted flange joint assembly

  • Abid, Muhammad (Faculty of Mechanical Engineering, Ghulam Ishaq Khan Institute of Engineering Sciences and Technology) ;
  • Khan, Yasir Mehmood (Faculty of Mechanical Engineering, Ghulam Ishaq Khan Institute of Engineering Sciences and Technology)
  • 투고 : 2012.11.21
  • 심사 : 2013.06.08
  • 발행 : 2013.06.25

초록

This paper presents results of the effect of different bolt tightening sequences and methods on the performance of gasketed bolted flange joint using nonlinear finite element analysis. Bolt preload scatter due to elastic interactions, flange stress variation and bolt bending due to flange rotation and gasket contact stress variation is difficult to eliminate in torque control method i.e. tightening one bolt at a time. Although stretch control method (tightening more than one bolt at time) eradicates the bolt preload scatter, flange stress variation is relatively high. Flange joint's performance is compared to establish relative merits and demerits of both the methods and different bolt tightening sequences.

키워드

참고문헌

  1. Abid, M. (2000), "Experimental and analytical studies of conventional (gasketed) and unconventional (nongasketed) flanged pipe joints (with special emphasis on the engineering of 'joint strength' and 'sealing')", PhD. Thesis.
  2. Abid, M. and Hussain, S. (2008), "Gasketed flange joint's relaxation behavior during assembly using spiral wound gasket", Journal of Process Mechanical Engineering, Proceedings of the IMechE, 222(2), 123-134. https://doi.org/10.1243/09544089JPME160
  3. Abid, M. and Nash, D.H. (2006a), "Joint relaxation behavior of gasketed bolted flange joint during assembly", WSEAS International Conference on Applied and Theoratical Mechanics, 123(3), 19-325.
  4. Abid, M. and Nash, D.H. (2006b), "Bolt bending behavior in bolted flange pipe joint: a comparative study", ASME International PVP Conference, 1-9.
  5. ANSYS Inc., ANSYS Elements Manual, Seventh Edition (2008), Release 10.
  6. ASME (1998), Pipe Flanges and Flanged Fittings, Sec VIII, Div. 1.
  7. ASME (2006), Boiler and Pressure Vessel Code, Section II, Part D, American Society of Mechanical Engineering, New York, USA.
  8. ASME PCC-1 (2000), Guidelines for Preussure Boundary Bolted Flange Joint Assembly.
  9. Bickford, J.H. (2008), Introduction to the Design and Behavior of Bolted Joints, CRC Press. UK
  10. Bickford, J.H. and Nassar, J. (1998), Handbook of Bolts and Bolted Joints, CRC Press, UK.
  11. Brown, W. (2004), "Efficient assembly of pressure vessel bolted joints", ASME Internation PVP Conference, 478, 163-168.
  12. Garlock Gasket Manufacturer, http://www.garlock.com
  13. Hurrel, P.R. (2000), "Good practice in modeling of pressure vessel bolted joints for stress and fatigue analysis", ASME International PVP Conference, 405, 123-134.
  14. Jiang, Y. (2002), "An experimental investigation on frictional properties of bolted joints", ASME Internation PVP Conference, 433, 59-66.
  15. Nagata, S., Shoji, Y. and Sawa, T. (2002), "A simplified modeling of gasket stress-strain curve for FEM analysisin bolted flange joint design", ASME Internationa PVP Conference, 433, 53-58.
  16. Sawa, T., Higurashi, N. and Akagawa, H. (1991), "A stress analysis of pipe Flange connections", Journal of Pressure Vessel Technology, 113, 497-503. https://doi.org/10.1115/1.2928786
  17. Sawa, T. Matsumoto, M. and Nagat, S. (2003), "Effects of scatter in bolt preload of pipe Flange connetions with gasket on sealing performance," ASME Internation PVP Conference, 65-75.
  18. Shoji, Y. (2004), "An effect of gasket stress distribution on tightness estimation in pipe Flange connectios by finite element analysis", ASME Internation PVP Conference, 478, 113-120.
  19. SKF (2001), Bolt-tightening Handbook, Linear Motion and Precision Technologies, France.
  20. Takaki, T. and Fukuoka, T. (2000), "Bolt-up strategy for pipe Flange connections using finite element analysis", ASME International PVP Conference, 405, 143-149.
  21. Takaki, T. and Fukuoka, T. (2001), "Finite element analysis of bolt-up operations for pipe Flange connections", ASME International PVP Conference, 416, 141-147.
  22. Takaki, T. and Fukuoka, T. (2002), "Systematical FE analysis of bolt assembly process of pipe Flange connections", ASME International PVP Conference, 147-152.
  23. Takaki, T. and Fukuoka, T. (2004), "Effective bolting up procedure using FEA and elastic interaction coefficient method", ASME Internation PVP Conference, 478, 155-162.
  24. Thompson, G. (1998), An Engineers Guide to Pipe Joints, Professional Engineering Publishing.
  25. Tsuji, H. and Nakano, M. (2002), "Bolt preload control for bolted Flange joint", ASME Internation PVP Conference, 163-170.

피인용 문헌

  1. Effect of the rotation on a non-homogeneous infinite cylinder of orthotropic material with external magnetic field vol.54, pp.1, 2015, https://doi.org/10.12989/sem.2015.54.1.135
  2. Optimized bolt tightening procedure for different tightening strategies—FEA study vol.231, pp.2, 2017, https://doi.org/10.1177/0954408915589687
  3. Optimized bolt tightening strategies for gasketed flanged pipe joints of different sizes vol.139-140, 2016, https://doi.org/10.1016/j.ijpvp.2016.02.022
  4. Simplified model to study the dynamic behaviour of a bolted joint and its self loosening vol.55, pp.3, 2015, https://doi.org/10.12989/sem.2015.55.3.639
  5. Simulation of Optimized Bolt Tightening Strategies for Gasketed Flanged Pipe Joints vol.130, 2015, https://doi.org/10.1016/j.proeng.2015.12.210
  6. Application of monotonic adaptive kernel for optimization: A case study 2017, https://doi.org/10.1177/0954408916688501
  7. A Simple, Reusable and Low-Cost LVDT-Based in Situ Bolt Preload Monitoring System during Fastening for a Truck Wheel Assembly vol.9, pp.3, 2013, https://doi.org/10.3390/met9030336
  8. Analysis of Tightening Sequence Effects on Preload Behaviour of Offshore Wind Turbine M72 Bolted Connections vol.12, pp.23, 2019, https://doi.org/10.3390/en12234406
  9. Non-uniform virtual material modeling on contact interface of assembly structure with bolted joints vol.72, pp.5, 2019, https://doi.org/10.12989/sem.2019.72.5.557
  10. Investigation on bolt initial tensioning of inner-diameter saw blade vol.234, pp.8, 2013, https://doi.org/10.1177/0954406219893724